An injection locked millimeter wave oscillator based on field emission cathodes

Author

Pu-Shih Lu ; Ming-Chieh Lin

Author_Institution

Fu Jen Catholic Univ., Taipei

fYear

2007

fDate

8-12 July 2007

Firstpage

12

Lastpage

13

Abstract

The frequency range of the millimeter wave is from 30 up to 300 GHz. Millimeter waves have been extensively studied for many applications including high resolution radars, communications, materials processing, plasma heating, high energy particle accelerators and power transmission. In this paper, an injection-locked millimeter wave oscillator based on field-emission cathodes is proposed and demonstrated the well phase/frequency controllability. The simulation results are consistent with the prediction of Adler´s equation. The preliminary results show that the design of the injection-locked oscillator seems to promise useful and compact millimeter wave sources.

Keywords

cathodes; electron field emission; injection locked oscillators; millimetre wave oscillators; vacuum microelectronics; Adler´s equation; compact millimeter wave sources; field emission cathodes; frequency 30 GHz to 300 GHz; injection locked millimeter wave oscillator; phase-frequency controllability; Cathodes; Energy resolution; Frequency; Injection-locked oscillators; Millimeter wave radar; Plasma accelerators; Plasma applications; Plasma materials processing; Plasma simulation; Radar applications;

fLanguage

English

Publisher

ieee

Conference_Titel

Vacuum Nanoelectronics Conference, 2007. IVNC. IEEE 20th International

Conference_Location

Chicago, IL

Print_ISBN

978-1-4244-1133-7

Electronic_ISBN

978-1-4244-1134-4

Type

conf

DOI

10.1109/IVNC.2007.4480911

Filename

4480911